Conformal coatings cured with actinic radiation

ABSTRACT

A curable composition based on a cycloaliphatic polyepoxide, a polytetramethylene oxide polyol and a photoinitiator; and a circuit board having as a conformal coating thereon, the cured product of the curable composition.

This application is a continuation of prior U.S. application Ser. No. 810,758, filing date Dec. 19, 1985, now abandoned.

BACKGROUND OF THE INVENTION

This invention pertains to polymer compositions curable by actinic radiation and more particularly to the use of mixtures of cycloaliphatic epoxides, polyols and onium salt photoinitiators for coating various metal, ceramic, glass, plastic, and composite substrates.

Prior art conventional conformal coatings comprise solutions of polymers or reactive components in a solvent. After application to a printed circuit board substrate, the solvent was removed by long time evaporation at room temperature or at an elevated temperature. When reactive components are involved, after mixture of two or more components, the systems had a relatively short pot life on the order of a few hours or less to about 24 hours.

Conformal coatings are coatings that encapsulate a printed circuit board and its components. This complete envelope of encapsulating material provides protection from humidity, moisture, dust, fungus, and other contaminants. In addition, properly applied conformal coatings enhance circuit reliability by eliminating current or voltage leakage from high impedance circuits. A paper by J. Waryold, of HumiSeal, entitled "How to Select a Conformal Coating for Printed Circuit Boards" describes conformal coatings. Section 4.7 of the book Protective Circuit Coatings describes the various types of materials that are used for conformal coatings.

A great deal of effort was expended on investigating the various cycloaliphatic epoxide materials as rapidly curable, ultraviolet light curable conformal coatings. Although curable coatings could be formed from many systems, they had electrical insulation values that only marginally passed the military specification requirements (i.e., they were about 2.5×10¹² ohms). In addition, when subjected to a humid environment, the electrical insulation values decreased to a level less than the requirements of the military specification. The resistance values of the coatings could be improved if a thermal post cure were employed, but this is less desirable than coatings that do not require a thermal post cure or only require a thermal post cure to achieve extremely high performance features which exceed the military specifications by a large amount.

U.S. Pat. No. 4,256,828 discloses information about photocurable compositions that contain epoxides, organic material with hydroxyl functionality and a photosensitive aromatic sulfonium or iodonium salt.

U.S. Pat. Nos. 4,216,288, 4,193,799 and 4,108,747 are concerned with photocurable compositions that can be used in the electronics industry as photoresists.

However, none of the patents listed above deal with conformal coatings.

It is therefore an object of this invention to provide a method for depositing coatings on printed circuit boards and other electrical components which pass military specifications.

It is another object to provide a method for depositing coatings on specialty metals, ceramics, plastics, and composites.

It is still another object to provide a method for coating printed circuit boards and other electrical components with a conformal coating composition which can be cured by actinic radiation.

Another object is to provide a protective coating that encapsulates only particular areas of a printed circuit board and/or particular components that require protection.

Other objects will become apparent to those skilled in the art upon a further reading of the specification.

SUMMARY OF THE INVENTION

A method of coating printed circuit boards, electrical components and other metal and plastic substrates, which meets the objects enumerated above, has been found which comprises contacting said substrates with a conformal coating composition consisting essentially of a predominant amount of a cycloaliphatic epoxide together with a polyether polyol, a photoinitiator and optionally a surfactant.

It is preferred to employ about 60 to about 89 parts of epoxide, about 10 to about 35 parts of polyether polyol, about one to about 5 parts of a photoinitiator and 0 to about 1 part of a surfactant, all parts being by weight.

Further, such cycloaliphatic epoxides may be blended with the blends of cycloaliphatic epoxides and other epoxides described infra. These epoxides are well known in the art and many are commercially available.

Suitable cycloaliphatic epoxide resins for purposes of this invention are those having an average of one or more epoxy groups per molecule. Preferably the cycloaliphatic epoxide resin will be a mixture of epoxides that will usually contain a major proportion of cycloaliphatic epoxides that contain two or more epoxy groups per molecule. Illustrative of suitable cycloaliphatic epoxides are the following:

FORMULA 1

Diepoxides of cycloaliphatic esters of dicarboxylic acids having the formula: ##STR1## wherein R₇ through R₂₄ can be the same or different, are hydrogen or alkyl radicals generally containing one to nine carbon atoms inclusive, and preferably containing one to three carbon atoms, inclusive, as for example methyl, ethyl, n-propyl, n-butyl, n-hexyl, 2-ethylhexyl, n-octyl, n-nonyl and the like; R is a valence bond or a divalent hydrocarbon radical generally containing one to twenty carbon atoms, inclusive, and preferably, containing four to six carbon atoms, inclusive, as for example, alkylene radicals, such as trimethylene, tetramethylene, pentamethylene, hexamethylene, 2-ethylhexamethylene, octamethylene, nonamethylene, hexadecamethylene and the like; cycloaliphatic radicals, such as 1,4-cyclohexane, 1,3-cyclohexane, 1,2-cyclohexane, and the like.

Particularly desirable epoxides, falling within the scope of Formula I, are those wherein R₁ through R₁₈ are hydrogen and R is alkylene containing four to six carbon atoms.

Among specific diepoxides of cycloaliphatic esters of dicarboxylic acids are the following:

bis(3,4-epoxycyclohexylmethyl)oxalate,

bis(3,4-epoxycyclohexylmethyl)adipate,

bis(3,4-epoxy-6-methylcyclohexylmethyl)adipate,

bis(3,4-epoxycyclohexylmethyl)pimelate, and the like.

Other suitable compounds are described in, for example, U.S. Pat. No. 2,750,395.

FORMULA II

A 3,4-epoxycyclohexylmethyl-3,4-epoxycyclohexane carboxylate having the formula: ##STR2## wherein R¹ through R¹⁸ which can be the same or different are as defined for R₇ to R₂₄ in Formula I. Particularly desirable compound is that wherein R¹ through R¹⁸ are hydrogen.

Among specific compounds falling within the scope of Formula II are the following: 3,4-epoxycyclohexylmethyl-3,4-epoxycyclohexane carboxylate; 3,4-epoxy-1-methylcyclohexylmethyl-3,4-epoxy-1-methylcyclohexane carboxylate; 6-methyl-3,4-epoxycyclohexylmethyl-6-methyl-3,4-epoxycyclohexane carboxylate; 3,4-epoxy-3-methylcyclohexylmethyl-3,4-epoxy-3-methylcyclohexane carboxylate; 3,4-epoxy-5-methylcyclohexylmethyl-3,4-epoxy-5-methylcyclohexane carboxylate. Other suitable compounds are described in, for example, U.S. Pat. No. 2,890,194.

FORMULA III

Diepoxides having the formula: ##STR3## wherein the R's, which can be the same or different, are monovalent substituents such as hydrogen, halogen, i.e. chlorine, bromine, iodine or fluorine, or monovalent hydrocarbon radicals, or radicals as further defined in U.S. Pat. No. 3,318,822. Particularly, desirable compound is that wherein all the R's are hydrogen.

MONOEPOXIDES

The composition may include a cycloaliphatic monoepoxide that functions as a reactive diluent. This monoepoxide may be unsubstituted as cyclohexene oxide or substituted with alkyl of 1 to 9 carbon atoms, halogen, oxygen, ester, ester or vinyl radicals. Examples of substituted monoepoxides include alpha-pinene monoepoxide, limonene monoepoxide, 4-vinyl cyclohexene monoepoxide, norbornene monoepoxide, and the like. Preferably, the substituted monoepoxide is vinyl substituted cycloaliphatic monoepoxide and is preferably selected from one or more of the following:

(1) 4-vinyl cyclohexene monoepoxide having the formula ##STR4##

(2) norbornene monoepoxide having the formula: ##STR5## or

(3) limonene monoepoxide having the formula: ##STR6##

The cycloaliphatic monoepoxide may be used in the composition in amounts of from 0 to about 50, preferably from 1 to about 30, and most preferably from 2 to 20 weight percent of the cycloaliphatic epoxide used.

Other suitable cycloaliphatic epoxides are the following: ##STR7## and the like.

The preferred cycloaliphatic epoxides are the following: ##STR8## or mixtures thereof.

If desired, minor amounts of glycidyl epoxides such as the diglycidyl ethers of Bisphenol-A, cresol-novolac epoxy resins, epoxy phenol novolac resins, diglycidyl ethers of 1,4-butanediol, and the like can be used.

The preferred polyether oxide polyols are dihydroxy functional polytetramethylene oxide polyols having an average molecular weight of about 650 to about 3000 and an average hydroxyl number of about 35 to about 200. Other polyether polyols can be used alone or in combination with dihydroxy functional polytetramethylene oxide polyols. Examples of such polyols are polypropylene oxide polyols, polymer/polyols, propylene oxide polyols that have been capped with ethylene oxide, hydroxyethylated and hydroxypropylated cellulose, cellulose acetate butyrates, and the like. In addition, small amounts of 1 to 15% of polyester polyols such as poly(hexamethylene adipate), poly(ethylene adipate), poly(butylene adipate), polycaprolactone, and so on may be used to modify the properties of the coating.

The photoinitiators which may be used herein include aromatic onium salts of Group VIA elements as described in U.S. Pat. No. 4,058,400; aromatic onium salts of Group Va elements as described in U.S. Pat. No. 4,069,055; aromatic onium salts of Group VIa elements having a MF anion where M is selected from P, As, and Sb as described in U.S. Pat. No. 4,231,951; and aromatic iodonium complex salts and aromatic diazonium complex slats as described in U.S. Pat. No. 4,256,828. Also included are metal fluoroborates and a complex of boron trifluoride as described in U.S. Pat. No. 3,379,653; aryldiazonium compounds as described in U.S. Pat. No. 3,708,296, and so on. Preferred photoinitiators include arylsulfonium complex salts of halogen-containing complex ions, and aromatic onium salts of Group IIIa, Va, VIA elements. Some of such salts are commercially available such as FC-512 (available from 3M Co.). UVE-1014 and UVE-1016 (available from General Electric Co.), and UVI-6990 and UVI-6974 (available from Union Carbide Corp.)

If desired, other photoinitiators such as sulfonium, sulfoxonium, iodonium and diazonium salts can be used.

The compositions and processes of this invention are particularly useful as conformal coatings which are used in the electronics industry. They are coated over an entire printed circuit board and its components to provide an encapsulated system that is protected from a variety of hostile environments. These environments include moisture or high humidity conditions, high temperature and humidity conditions, dust, ionic contaminates, fungus, and so on. In addition, the conformal coatings of this invention provide enhancement of electrical circuit reliability. The conformal coating may at times only cover portions of the printed circuit board as, for example, over only the solder connections which are usually found on the noncomponent side of the board. Or, the conformal coating may be coated onto individual components--as for example, onto an integrated circuit to provide resistance and protection against arcing or some other loss mechanism. Of course, the coating may be applied to both portions of the board and one or more or all components on the board.

The compositions and processes of this invention can also be used for a variety of other less preferred end uses. These include photoresists, solder masks, nonconductive coatings for various electrical devices, wire coatings, optical fiber coatings, general metal coatings, and so on. In addition, they may be used as adhesives or sealants. Of course, as indicated above, the preferred end use for the coating systems is as conformal coatings.

DESCRIPTION OF THE INVENTION

The compositions and processes of this invention provide high solids coating systems that are usually 100% solids in nature in that they need not contain an added volatile solvent. They are curable with actinic energy with ultraviolet radiation preferred. Properties are developed rapidly and cure is accomplished after the passage of seconds. Although it is not necessary to apply thermal energy after the application of actinic energy to complete cure, it may be advantageous to heat the exposed coating. The viscosity of many of the systems described herein is of such a low nature that the coating can be applied by a variety of application methods. However, the systems can be warmed if desired to improve flow and leveling characteristics, to obtain a thinner film than would be obtained with the system at room temperature. If desired, an inert solvent such as 1,1,1-trichloroethane, methylene chloride, carbon tetrachloride, FREONS, perchloroethylene, toluene, ethoxyethyl acetate, methyl amyl ketone, and so on can be added to decrease viscosity and/or flow and leaching characteristics. If necessary to increase the viscosity for screen printing or some other process, fillers such as talc, silicas, etc., cellulose acetate butyrate or other cellulosics, polycaprolactone, vinyl polymers, etc., may be added.

The systems contain one or more cycloaliphatic epoxides, one or more polyols of the poly(tetramethylene oxide) type--although propylene oxide polyols can be used or added to the mixture as well as minor amounts of ester containing polyols, an onion salt photoinitiator such as UVE-1014--although other sulfonium, sulfoxonium, iodonium, and diazonium photoinitiators can be used. Commercial examples of onium salt photoinitiators include UVE-1014 (GE), UVE-1016 (GE), FC-508 (3M), FC-509 (3M), and FC-512 (3M), UVI-6974 (UCC), and UVI-6990 (UCC). In addition, the formulated systems may contain a surfactant of the silicone, silicone copolymer, or fluorochemical type. Polymeric acrylics such as Modaflow™ (Monsanto) can also be employed for good flow and leveling. A fluorescent chemical (often called a dye) such as Calcafluor White RWP (American Cyanamide) may be included in the formulation if desired. A dye such as this allows the coated article to be examined with what is often termed "black light" but really is a form of low intensity ultraviolet light. If desired, the polyol can be omitted from the formulation although in the preferred case it would be included.

The amount of polyol in the system is from 0 to 50%, with the preferred amount from 5 to 40%, and the most preferred amount from 10 to 35%.

The photoinitiator is present in an amount of 0.5% to 25% with the preferred amount 1% to 8% and the most preferred amount from 1% to 4%.

The surfactant is usually present in an amount of from 0.05% to 1.0% with the preferred amount from 0.1% to 0.6%. As in known to those skilled in the art, the amount of surfactant used will depend on the particular formulation and the particular surfactant chosen.

When present in the system, the fluorescent dye is usually present in an amount of 0.01% or less to 0.1% or more with the preferred amount 0.01%

If desired, more than one tetramethylene oxide polyol can be used in the system. In addition, various epoxides can be used in the system. These include ERL-4221, ERL-4299 ERL-4234, ERL-4206, as well as other di-, mono-, and trifunctional cycloaliphatic epoxides. Glycidyl epoxides of various types can also be used. Minor amounts of other polyols, such as caprolactone polyols, polyester polyols, poly(alkylene oxide) polyols, styrene/allyl alcohol copolymers, vinyl alcohol/vinyl acetate copolymers and other hydroxyl functional materials can be used. If desired, minor amounts of monohydroxyl functional materials may be included in the compositions. These include alcohols such as methanol, ethanol, propanol, butanol, pentanol, etc., hydroxyethyl acrylate and methacrylate, hydroxypropyl acrylate and methacrylate, alkylene oxide derivatives of hydroxyl-bearing acrylates and methacrylates, caprolactone derivatives of acrylates and methacrylates.

The actinic radiation that can be used is of various types, such as X-ray, gamma-ray, ultraviolet, electron beam, and the like.

The invention is further described in the Examples which follow. All parts and percentages are by weight unless otherwise specified.

GENERAL PROCEDURE FOR MIXING OF INGREDIENTS GIVEN IN THE VARIOUS EXAMPLES

The coating systems were prepared by placing the ingredients in amber-colored, glass bottles and stirring well. Before the POLYMEG™ polyols were added to the bottles they were warmed to liquify the polyols and thus facilitate the solution or mixing process. In all cases, the solutions were cooled to room temperature before application to the test printed circuit boards (PCB) or metal substrates. The test PCB's were obtained from Nova Tran Corporation, #8340, H2, AW 185-0014-00 and B 190-0024-00. They were of the type that are described in FIG. 1 of MIL-I-46058C. These formulated systems were then applied and cured as described in the working examples.

EXAMPLES 1-7

The general procedure for mixing was used. Proportions are given in Tables I and II. On steel panels, the coating rapidly developed acetone resistance (>100 double rubs had no effect <5 hours after UV exposure), had good hardness, and poor adhesion. These coatings did not pass the conical mandrel test, although the one with Polymeg 2000 had only minor failure. On PCB's without a thermal post cure, the coatings developed good electrical resistance with all systems being within the desired range after 1-2 days ambient post cure. Note that 30 minutes after UV exposure, Example 1 had a resistance greater than that required by the specification (i.e., 3.2×10¹² ohms vs. a requirement of 2.5×10¹² ohms).

Table II contains formulation information for Examples 4-7 which were designed to have improved flexibility as measured by the mandrel bend test. One hour after UV exposure, all 12 coated boards had resistance values markedly >2.5×10¹² ohms. After 3 days at RT, three of the systems developed resistances >10¹⁴ ohms; and all coatings had resistances of >10¹⁴ ohms when post cured for 30 minutes at 120° C. or 140° C.

To simulate the humidity cycling of Method 106 of Mil. Std. 202, a simple test apparatus was devised. Method 106 calls for cycling the board between 25° C. and 65° C. under relative humidities of 98% at the low temperature and 90-98% at the high temperature. During this cycling, the test specimen was taken from 25° C. to 65° C. over 2.5 hours, kept at 65° C. for 3 hours, dropped to 25° C. and raised to 65° C. over five hours, and kept at 65° C. for three hours. Then, during the remainder of the 24-hour test period, the board was brought to 25° C. and evaluated. The conditions are specified to be nonmoisture-condensing. The board was subjected to 10 of these daily cycles and then given a final evaluation for insulation resistance characteristics.

To simulate this test, a Soxhlet extractor was modified so that the PCB did not contact the raising liquid in the condensation chamber. It did contact the 100% RH, condensing moisture environment at a temperature of about 90° C.

                  TABLE I                                                          ______________________________________                                         Polymeg/Epoxide Systems                                                        UV Cure                                                                                    Example                                                                        1         2      3                                                 ______________________________________                                         Ingredients                                                                    Polymeg* 650  10.0        --     --                                            Polymeg* 1000 --          7.0    --                                            Polymeg* 2000 --          --     5.0                                           ERL-4221      75.2        77.8   79.5                                          VCHM          12.3        12.7   13.0                                          UVE-1014      2.0         2.0    2.0                                           FC-171        0.5         0.5    0.5                                           L-5410.sup.+  0.5         0.5    0.5                                           Dye** (pph)   0.02        0.02   0.02                                          Properties                                                                     Viscosity, cp 75          80     95                                            Temperature, °C.                                                                      23.5        23.5   23.5                                          ______________________________________                                          *Polymeg -- Trademark for poly(tetramethylene oxide) polyols (Quaker Oats      **Fluorescent dye, Calcafluor White RWP (American Cyanamid)                    .sup.+ The formulations with FC171 did not exhibit good wettability, flow      and leveling. When the L5410 was added, smooth coatings were obtained.   

Coating/Cure System

It was necessary to melt the Polymeg 1000 and 2000 to effect solution. The systems were coated onto Bonderite 37 steel panels and onto fiberglass/epoxy printed circuit board (PCB) test panels. The steel panels were coated with a No. 20 wire-wound rod and the PCB's by a dip coating technique using about a 2-minute removal time. During cure, the relative humidity was 36% and the temperature 76° F. Cure rate for the steel panels was 10 fpm under a focused beam, 300 w/i, Type A, Fusion Systems light source. The PCB's were first cured on each side at a rate of 50 fpm and then twice on each side at 10 fpm. (NOTE: PCB meets Mil-I-46058C, 1982).

Results Systems 1-3 on Steel

All coatings were tack-free, smooth, and had high gloss immediately after UV exposure. Thickness: 0.70 mil.

Systems 1-3 on PCB's

Systems were tack-free after UV exposure. Thickness: 2-2.5 mils.

Properties

    ______________________________________                                         Properties                                                                     Properties, One                                                                               System, On Steel, No Post Cure                                  Day After Cure 1         2         3                                           ______________________________________                                         Acetone Double Rubs*                                                                          100(1)    100(1)    100(1)                                      Pencil Hardness                                                                               H         H         H                                           % Crosshatch Adhesion                                                                         0         0         0                                           Conical Mandrel**                                                                             Fail      Fail      5 mm                                        Gardner Impact                                                                 Face, in lbs.  25        25        25                                          Reverse, in lbs.                                                                              <5        <5        <5                                          ______________________________________                                          *5 hours after UV exposure.                                                    **ASTM D522-60; failure indicates failure along entire length. A distance      indicates length of failure from inch end.                               

    ______________________________________                                         Electrical Resistance                                                          (500 v impressed),                                                                           System, On PCB, No Post Cure                                     ohm × 10.sup.-12                                                                       1         2          3                                           ______________________________________                                         After:                                                                         30 minutes    3.2       1.4        0.8                                         16 hours      2.8       1.4        3.1                                          2 days       4.1       2.1        3.8                                          5 days       12        7.5        3.8                                         12 days       12        5.5        14                                          ______________________________________                                    

                  TABLE II                                                         ______________________________________                                         Polymeg/Epoxide Systems                                                        UV Cure                                                                                    Example                                                                        4    5        6       7                                            ______________________________________                                         Ingredients                                                                    Polymeg* 650  12.0   15.0     --    --                                         Polymeg* 2000 --      --      7.0   10.0                                       ERL-4221      73.5   70.9     77.8  75.2                                       VCHM**        12.0   11.6     12.7  12.3                                       UVE-1014      2.0    2.0      2.0   2.0                                        L-5410.sup.+  0.5    0.5      0.5   0.5                                        Dye* (pph)    0.02   0.02     0.02  0.02                                       Properties                                                                     Viscosity, cp 85     80       115   114                                        Temperature, °C.                                                                      24     24       24    24                                         ______________________________________                                          *See footnotes to Table I.                                                     **VCHM = .sup.4Vinylcyclohexane monoepoxide                              

Coating/Cure Systems

Same as described in Table I, except a 1.5-minute removal time was used during the dip coating operation. Also, about ten minutes elapsed between the 50 fpm and 10 fpm UV cure passes. As a final cure, the PCB's were UV-curved for 15-20 seconds at a distance of one inch (height) or 1.5 inches (width) from a stationary light source. During cure, the relative humidity was 41% at 77° F.

Results Systems 4-7

All coatings on the steel panels were tack-free immediately after UV cure. The PCB's had a reasonably good appearance, but there were some flow lines and some build-up at the bottom of the board.

Properties

    ______________________________________                                         Properties                                                                     Properties, One                                                                               System, On Steel, No Post Cure                                  Day After Cure 4       5        6     7                                        ______________________________________                                         Acetone Double Rubs*                                                                          100(1)  100(1)   100(1)                                                                               100(1)                                   Pencil Hardness                                                                               3H      3H       3H    3H                                       % Crosshatch Adhesion                                                                         95      90       95    99                                       Conical Mandrel**                                                                             20 mm   2 mm     Fail  Fail                                     Gardner Impact                                                                 Face, in lbs.  25      25       25    25                                       Reverse, in lbs.                                                                              <5      <5       <5    <5                                       ______________________________________                                          *3 hours after UV exposure.                                                    **ASTM D522-60; failure indicates failure along entire length. A distance      indicates length of failure from inch end.                               

    ______________________________________                                                       Electrical Resistance                                            System                                                                               Thick-  (500 v impressed), ohm × 10.sup.-12                        on    ness,   Time After UV Cure                                                                            After 30 min.                                     PCB*  mil     1 hr.   2 hr.                                                                               3 da. @ 120° C.                                                                       @ 140°C.                       ______________________________________                                         4A    2       8.0     9.0    40  --      --                                    4B      1.5   14      --   --    >100    --                                    4C    2       14      --   --    --      >100                                  5A    3       9.5     11   >100  --      --                                    5B    2       6.1     --   --    >100    --                                    5C    2       6.0     --   --    --      >100                                  6A    2       18      30   >100  --      --                                    6B    2       16      --   --    >100    --                                    6C    2       14      --   --    --      >100                                  7A    2       13      14   >100  --      --                                    7B      2.5   18      --   --    >100    --                                    7C    3       14      --   --    --      > 100                                 ______________________________________                                          *NOTE:                                                                         Triplicate PCB's were prepared from each coating system. One board was         aged under ambient conditions ("A"), and the other two were postcured for      30 minutes at 120° C. ("B") or at 140° C. ("C").           

    ______________________________________                                         Electrical Resistance (500 v impressed), ohm × 10.sup.-12                       PCB                  No. of Days                                               After   1 Hr. After  at RT After                                                                              See                                      System 3 Days  1 Hr. in     Solvent Testing                                                                          Comment                                  on PCB*                                                                               at RT   MeOH**   H.sub.2 O**                                                                          4 Days                                                                               6 Days                                                                               Below                                ______________________________________                                         4A       40    --       --      30    40  --                                   4B     >100    --       0.12  >100    50  --                                   4C     >100    1.02     --      40    35  (d)                                  5A     >100    --       --      30    30  --                                   5B     >100    --       0.40  >100  >100  --                                   5C     >100    0.11     --    >100  >100  --                                   6A     >100    --       --    >100  >100  (b)                                  6B     >100    --       1.70  >100  >100  (c)                                  6C     >100    1.10     --    >100  >100  --                                   7A     >100    --       --    >100  >100  (a)                                  7B     >100    --       0.70    50    70  --                                   7C     >100    0.65     --    >100  >100  --                                   ______________________________________                                          *                                                                              "A" designates no thermal post cure.                                           "B" designates 30 minutes, 120° C. post cure.                           "C" designates 30 minutes, 140° C. post cure.                           **Samples were subjectd to the refluxing solvent in a Soxhlet extractor        that was modified so the PCB did not contact the liquidcondensed vapor. I      effect, they were subjected to a 100% RH, condensing liquid environment        for one hour. After this time, they were removed, allowed to cool to room      temperature for an hour, and then the resistance was measured. There was       no change in appearance after this exposure.                             

Comments

(a) Subjected to 8 hours of condensing water vapor in Soxhlet extractor (temperature near board 90°-95° C.). Resistance 1 minute after removal=1.9×10⁸ ohm. Resistance 16 hours later=3.0×10¹² ohm. Various areas on the board had blisters.

(b) Subjected to 6 hours of condensing water vapor, PCB then allowed to cool to RT in condensation chamber. It was then removed, dried with a paper towel, and resistance at 100 v was found to be 1.5×10¹⁰ ohm. The PCB was then allowed to air0dry at RT for 1.5 hours and the resistance was determined at 100 volts to be 4.0×10¹⁰. There were various areas on the back of the board that exhibited blisters.

(c) This board, which had been post-cured at 120° C. for 30 minutes, was treated in the same manner as the sample above except for slight difference in the times involved. Times and results are as follows:

Time in Soxhlet=6.5 hours

Resistance at RT 1 minute after removal=3.0×10¹² ohms @ 100 v

Resistance after 1 hour at RT=8.0×10¹² ohms @ 500 v

Resistance after 18 hours at RT=4.0×10¹³ ohms @ 500 v This board contained a few blisters but a markedly smaller number than the two boards above which were not thermally post-cured.

(d) This board, which had been post-cured at 140° C. for 30 minutes, was treated in the same manner as (c) above. Results are as follows:

Time in Soxhlet=6.0 hours

Resistance at RT 1 minute after removal=4.05×10¹² ohms @ 100 v

Resistance after 1 hour at RT=1.0×10¹³ ohms @ 500 v

Resistance after 18 hours at RT=4.0×10¹³ ohms @ 500 v

No blisters were apparent on this board.

GLOSSARY OF MATERIALS USED IN THE EXAMPLES

1. Polymeg 650 is a dihydroxy functional polytetramethylene oxide polyol having an average molecular weight of 650, an average hydroxyl number of 160-187 and is available from Quaker Oats Company.

2. Polymeg 1000 is a dihydroxy functional polytetramethylene oxide polyol having an average molecular weight of 1000, an average hydroxyl number of 107-118 and is commercially available from Quaker Oats Company as Polymeg 1000.

3. Polymeg 2000 is a dihydroxy functional polytetramethylene oxide polyol having an average molecular weight of 2000, an average hydroxyl number of 53-59 and is commercially available from Quaker Oats Company.

4. UVE-1014 is a solution of an onium salt which is believed to contain hexafluoroantimony. It is listed as having a specific gravity of 1.39 and a Brookfield viscosity of 74 cp at 25° C. It is available from General Electric Company.

5. FC-171 is a fluorinated alkyl ester of the nonionic-type surfactant and is commercially available from 3M Commercial Chemicals Division.

6. Calcafluor White RWP is a fluorescent dye of unknown composition and is available from American Cyanamid Co.

7. L-5410 is a silicone-ethylene oxide copolymer surfactant having the following structure and is available from Union Carbide Corporation. ##STR9##

8. VCHM is 4-vinyl cyclohexene monoepoxide.

9. ERL-4221 is 3,4-epoxycyclohexylmethyl-3,4-epoxycyclohexane carboxylate.

10. TERATHANE 1000 is a dihydroxyl functional polytetramethylene oxide polyol having an average molecular weight of from 950 to 1050 and an average hydroxyl number of 107-118 and is available from E. I. duPont de Nemours & Co. (Inc.).

11. TERATHANE 2900 is a dihydroxyl functional polytetramethylene oxide polyol having an average molecular weight of from 2825 to 2975 and an average hydroxyl number of 37-40 and is available from E. I. duPont de Nemours & Co. (Inc.).

12. ERL-4299 is bis (3,4-epoxycyclohexyl methyl) adipate.

13. ERL-4206 is vinyl cyclohexene dioxide.

14. ERL-4234 is 2-(3,4-epoxycyclohexyl-5,5-spiro-3,4-epoxy) cyclohexane-meta-dioxane.

Table III is divided into a series of examples. All examples had a viscosity that was readily amenable to dip coating (which was used) or to spray coating. The examples cured well using the cure schedules described. The cured coatings rapidly developed good solvent resistance and hardness. When Polymeg polyols are used, crosshatch adhesion was variable and only fair on the metal substrates. However, all coatings passed the conical mandrel bend on tin plate, which is the test substrate required by Method 2011 of Fed. Test Std. 141.

As described in the next section of Table III, the thickness of the coatings on the PCB's was within the 2±1 mil requirement Also 20 minutes after UV exposure, all coated panels had a 500-volt resistance of >2.5×10¹² ohms. When the PCB's were maintained at room temperature, the resistance increased as a function of time. The post cure at 120° C. for 30 minutes yielded coatings with an electrical resistance of >1×10¹⁴ ohms.

The last portion of Table III contains the resistance values obtained after the boards were subjected to 90°-95° C. condensing humidity conditions in the Soxhlet extraction chamber that was described in Example 1 to 3. The standard for resistance after the board has been subjected to the humid environment and cooled to 25° C. is >1×10¹⁰ ohms. One day later, the standard resistance was ≧2.5×10¹² ohms. From the data in this last section, it is readily apparent that the PCB's meet and surpass the requirements of this aspect of the Mil. Spec. Even the boards that were cured only under ambient conditions, after the UV exposure, met the specifications. However, two of the nonthermally treated boards and one of the thermally post-cured boards developed tiny blisters within the coating. On one of the ambient-cured boards, there were a relatively large number of blisters--about 15% of the area on one side had them. The other ambient-cured board had only about 5% of one side with a blistered area. The post-cured board had only a few of these irregularities, and one could not be certain they were caused during the high-humidity exposure or if they existed before exposure. Improper cleaning may have been responsible for the irregularities.

EXAMPLES 8-12

The general mixing procedure was used in the proportions given in Table III.

                  TABLE III                                                        ______________________________________                                         Polymeg/Epoxide Systems                                                        UV Cure                                                                                   Example                                                                        8     9       10      11    12                                      ______________________________________                                         Ingredients                                                                    Polymeg* 650, g.                                                                            18.0    20.0    --    --    12.0                                  Polymeg* 1000, g.                                                                           --      --      10.0  12.0  --                                    Polymeg* 2000, g.                                                                           --      --      --    --    3.0                                   ERL-4221     68.4    66.6    75.2  73.5  70.9                                  VCHM         11.1    10.9    12.3  12.0  11.6                                  UVE-1014, g  2.0     2.0     2.0   2.0   2.0                                   L-5410, g.   0.5     0.5     0.5   0.5   0.5                                   Dye** (pph)  0.02    0.02    0.02  0.02  0.02                                  Properties                                                                     Viscosity, cp                                                                               89      87      90    97    86                                    Temperature, °C.                                                                     23.5    23.5    23.5  24.0  24.0                                  ______________________________________                                          *Trademak for poly(tetraethylene oxide) polyols (Quaker Oats)                  **Fluorescent dye, Calcafluor White RWP (American Cyanamid)              

Coating/Cure System

It was necessary to melt the Polymeg 1000 and 2000 to effect solution. The systems were coated onto Bonderite 37 Steel and Q-Panel-Type DT tin-plate panels and onto fiberglass/epoxy printed circuit board (PCB) test panels. The steel panels were, coated with a No. 20 wire-wound rod and the PCB's by a dip coating technique using a 3-minute removal time. During cure, the relative humidity was 19% and the temperature was 81° F. Cure rate for the steel panels was 10 fpn under a focused beam, 300 w/i, Type A, Fusion Systems light source. PCB's that meet Mil-I-46058C 1982, were cured on each side at a rate of 50 fpm and then twice on each side at 10 fpm. About 10 minutes elapsed between the 50 fpm and 10 fpm UV-cure passes. As a final cure, the PCB's were UV-cured for 30 seconds at a distance of 2 inches from a stationary, UV-light source.

Results Examples 8-12 on Steel

All coatings were tack-free, smooth, and had high gloss immediately after UV exposure. Thickness: 0.70-0.75 mil.

Examples 8-12 on PCB's

All coatings were tack-free after the 54 fpm exposure. Thickness is given in the following table.

Properties

    ______________________________________                                         Properties                                                                     Properties, One                                                                             Example, On Bonderite 37, No Post Cure                            Day After Cure                                                                              8       9       10    11    12                                    ______________________________________                                         Acetone Double Rubs                                                                         100(1)  100(1)  100(1)                                                                               100(1)                                                                               100(1)                                Pencil Hardness                                                                             2H      2H      2H    H     H                                     % Crosshatch 15      50      5     25    30                                    Adhesion                                                                       Conical Mandrel                                                                             Pass    Pass    1 cm  3 cm  Pass                                  Conical Mandrel*                                                                            Pass    Pass    Pass  Pass  Pass                                  Gardner Impact                                                                 Face, in lbs.                                                                               25      25      25    25    25                                    Reverse, in lbs.                                                                            <5      <5      <5    <5    <5                                    ______________________________________                                          *Conical Mandrel on tinplated steel that meets Fed. Test Std. 141, Method      2011                                                                     

    ______________________________________                                                     Electrical Resistance                                                          500 v, ohm × 10.sup.-12                                                                        After                                        System  Thickness,                                                                               Time After UV Cure                                                                             30 min.                                      on PCB* mils      20 min.    3 days at 120° C.                          ______________________________________                                          8A     1.5       20         30     --                                          8B      1.25     20         --     >100                                        9A     2.0       14         30     --                                          9B     1.5       20         --     >100                                       10A     1.5       30         75     --                                         10B     1.5       30         --     >100                                       11A     1.5       14         35     --                                         11B     2.0       30         --     >100                                       12A     1.5       40         40     --                                         12B     2.0       30         --     >100                                       ______________________________________                                          *NOTE:                                                                         Duplicate PCB's were prepared from each coating system. One board was age      under ambient conditions ("A"), and the other board was post cured for 30      minutes at 120° C.                                                

    ______________________________________                                                   Electrical Resistance After Soxhlet                                            Exposure (See Report 1), ohm × 10.sup.-12                      System Hours in Immediate,                                                                               1 Hour 1 day,*                                       on PCB*                                                                               Soxhlet  100 Volts 500 Volts                                                                             500 Volts                                                                             Blisters                               ______________________________________                                         Standard                                                                              --        0.010**  --     2.5    None                                    8A    6.0      0.011     0.21   5.5    None                                    9A    4.0      0.014     3.80   75     None                                   10A    6.0      0.165     2.00   75     Yes                                    11A    6.0      0.121     0.90   14     Yes, Few                               12A    6.0      4.0       12.0   50     None                                    8B    6.5      6.5       30     75     None                                    9B    6.0      6.0       25     >100   None                                   10B    6.0      7.0       10     50     None                                   11B    6.0      0.017     0.46   75     Yes, Few                               12B    6.0      1.2       18     75     None                                   ______________________________________                                          *The resistance of the boards was checked several days (times varied from      11 to 4 days) after the first exposure to the Soxhlet "environment". When      measured at 500 volts, all the PCB's had a resistance of >1 ×            10.sup.14 ohms.                                                                **Average value required. Individual specimens can have a value as low as      0.005 × 10.sup.12 ohms.                                            

The PCB's that met Mil-I-46058C 1982 were coated by using a dip coating technique and a 3-minute removal time. UV cure was effected by curing the boards on each side at a rate of 50 fpm and then twice on each side at 10 fpm. The Fusion Systems, Focused beam, 300 w/i, Type A light source was used. The PCB's were then UV-cured on each edge for 30 seconds at a distance of two inches from a stationary light source (Canrad-Hanovia 673A10, 105475). Four PCB's were prepared from each system and one of each of these were treated as follows:

Designation A--No post cure.

Designation B--Post cured on each flat side for 30 seconds at a distance of two inches from the stationary UV source.

Designation C--80° C. thermal post cure for 30 minutes.

Designation D--120° C. thermal post cure for 30 minutes.

Thermal shock testing was carried out using test condition B-2 of Method 107F of Mil. Std. 202F. This test method requires passage of fifty cycles that involve the following conditions. The test PCB's are subjected to a -65° C. temperature (acetone/dry ice bath) for 30 minutes. After this time, the specimens are removed and placed in a 125° C. oven for 30 minutes. Transfer time between the low and high temperature was less than five minutes. After five cycles were completed, from time to time the test was interrupted and the PCB's were allowed to return to room temperature. That is, such interruption took place at the end of the work day. This is in accord with Method 107F. After 50 cycles, all PCB's were examined with a ten-power lens. Except for one PCB, no damage (cracks, blisters, loss of gloss, etc.) of any type was noted. The one exception (Example 9C) had a number of minute cracks that appeared to be in the PCB rather than in the coating. As indicated below, the electrical resistance before and after humidity testing was markedly above specification requirements.

Table IV contains the electrical resistance values obtained at 500 v for the PCB's before, during, and after the thermal shock testing. It is apparent that 15 minutes after UV exposure the coatings all were above the specification resistance of 2.5×10¹² ohms, and those coatings thermally post cured at 12° C. for 30 minutes were beyond the range of the resistance measuring instrument. Periodically--i.e., before each new day's series of cycles--the resistance was measured during the thermal shock cycling.

At the completion of the fifty thermal shock cycles, the PCB's were subjected to six hours of 90°-95° C., condensing humidity conditions in the accelerated testing, Soxhlet extraction chamber that has been previously described. After this time, the resistance of all PCB's was more than two orders of magnitude greater than the specification standard of 1×10¹⁰ ohms at 100 volts. One day later, all PCB's had a resistance of >1×10¹⁴ ohms at 500 volts versus a standard requirement of 2.5×10¹² ohms.

Examples 8 through 12 were coated onto tin plate that meets the Mil. Spec. requirement and then UV cured. After 24 hours aging under ambient conditions, all coated panels were subjected to the 1/8-inch Mandrel bend test and all coatings passed.

                                      TABLE IV                                     __________________________________________________________________________     Properties of Selected Conformal Coatings                                      Before and After Thermal Shock (TS)                                            Cycling (50 Cycles)                                                                          Example 9       Example 11                                       __________________________________________________________________________     Designation   A   B   C   D   A   B   C   D                                    Coating thickness, mils                                                                       1.50                                                                               1.50                                                                               1.50                                                                               1.00                                                                               1.25                                                                               1.50                                                                               1.25                                                                               1.50                                              Electrical Res. ohm × 10.sup.-12                           15 minutes after UV cure                                                                     11.0                                                                               5.5  8.0                                                                                7.0                                                                               11.0                                                                               16.0                                                                               16.0                                                                               12.0                                 After post-cure                                                                              --  11.0                                                                               20.0                                                                               >100                                                                               --  50.0                                                                               40.0                                                                               >100                                 After 1 day    7.5                                                                               9.5 18.5                                                                               >100                                                                               16.5                                                                               40.0                                                                               35.0                                                                               >100                                 After 7 TS cycles                                                                            >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                 After 15 TS cycles                                                                           >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                 After 24 TS cycles                                                                           >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                 After 32 TS cycles                                                                           >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                 After 41 TS cycles                                                                           >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                 After 50 TS cycles                                                                           >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                 After 6 hours Accelerated                                                      humidity testing                                                               Immediate (100 v)                                                                             2.5                                                                               1.1  6.0                                                                               12.0                                                                                4.0                                                                                8.0                                                                                6.1                                                                                5.5                                 After 1.5 hrs @ RT (500 v)                                                                   11.0                                                                               12.0                                                                               12.0                                                                               50.0                                                                               16.0                                                                               30.0                                                                               40.0                                                                               11.0                                 After 1.4 da @ RT (500 v)                                                                    >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                                                               >100                                 __________________________________________________________________________

EXAMPLES 13-17

The general procedure for mixing was used.

Table V is divided into a series of segments. The first segment contains the formulation systems. All systems had a viscosity that was readily amenable to dip coating (which was used). The systems cured well using the cure schedules described. The cured coatings rapidly developed good solvent resistance and hardness. Crosshatch adhesion was variable. In certain cases, excellent adhesion to Bonderite 37 was obtained. All coatings passed the 3/8-inch mandrel bend on tin plate, which is the test substrate required by Method 2011 of Fed. Test Std. 141.

As described in the next section of Table V, the thickness of the coatings on the PCB's was within the 2±1 mil requirement. Also an hour after UV exposure, all coated panels except for one had a 500-volt resistance of >2.5×10¹² ohms. When the PCB's were maintained at room temperature, the resistance increased as a function of time.

The last portion of Table V contains the resistance values obtained after the boards were subjected to 90°-95° C. condensing humidity conditions in the Soxhlet extraction chamber that was described in Example 1 to 3. The standard for resistance after the board has been subjected to the humid environment and cooled to 25° C. was ≧1×10¹⁰ ohms. One day later, the standard resistance was ≧2.5×10¹² ohms. From the data in this last section, it is readily apparent that the PCB's meet and surpass the requirements of this aspect of the Mil. Spec.

                  TABLE V                                                          ______________________________________                                         Polymeg/Epoxide Systems                                                        UV Cure                                                                                   Example                                                                        13    14      15      16    17                                      ______________________________________                                         Ingredients                                                                    Polymeg* 650, g.                                                                            24.0    30.0    --    --    --                                    Polymeg* 1000, g.                                                                           --      --      16.0  20.0  --                                    Polymeg* 2000, g.                                                                           --      --      --    --    14.0                                  ERL-4221, g  63.2    58.0    70.1  66.6  71.8                                  VCHM, g      10.3    9.5     11.4  10.9  11.7                                  UVE-1014, g  2.0     2.0     2.0   2.0   2.0                                   L-5410, g.   0.5     0.5     0.5   0.5   0.5                                   Dye** (pph)  0.02    0.02    0.02  0.02  0.02                                  Properties                                                                     Viscosity, cp                                                                               124     155     155   166   220                                   Temperature, °C.                                                                     25.1    25.0    25.0  25.0  25.0                                  ______________________________________                                          *Trademark for poly(tetramethylene oxide) polyols (Quaker Oats)                **Fluorescent dye, Calcafluor White RWP (American Cyanamid)              

Coating/Cure System

It was necessary to melt the Polymeg 1000 and 2000 to effect solution. The systems were coated onto Bonderite 37 Steel and Q-Panel-Type DT tin-plate panels and onto fiberglass/epoxy printed circuit board (PCB) test panels. The steel panels were coated with a No. 20 wire-wound rod and the PCB's by a dip coating technique using a 3-minute removal time. During cure, the relative humidity was 33% and the temperature was 76° F. Cure rate for the steel panels was 10 fpm under a focused beam, 300 w/i, Type A, Fusion Systems light source. PCB's that meet Mil-I-46058C 1982, were cleaned, dried, and cured on each side at a rate of 50 fpm and then twice on each side at 10 fpm. About 10 minutes elapsed between the 50 fpm and 10 fpm UV-cure passes. As a final cure, the PCB's were UV-cured on all four edges for 30 seconds at a distance of 2 inches from a stationary, medium-pressure, UV-light source (Hanovia 673A10, 105475).

Results Examples 13-17 on Steel and Tin Plate

All coatings were tack-free, smooth, and had high gloss immediately after UV exposure. Thickness: 0.70-0.75 mil.

Examples 13-17 on PCB's

All coatings were tack-free after the 50 fpm exposures. Thickness is given in the following table.

Properties

    ______________________________________                                         Properties 72 Hours                                                            After UV Exposure                                                                           13      14      15    16    17                                    ______________________________________                                                    Example, On Bonderite 37, No Post Cure                              Acetone Double Rubs                                                                         100(1)  60(4)   100(1)                                                                               100(1)                                                                               100(1)                                Pencil Hardness                                                                             H       H       3H    2H    3H                                    % Crosshatch 100     100     100   80    100                                   Adhesion                                                                       Gardner Impact                                                                 Face, in lbs.                                                                               275     >320    25    100   25                                    Reverse, in lbs.                                                                            300     >320    15    75    >5                                    Thickness, mils                                                                             0.80    0.70    0.70  0.78  0.75                                             Example, On Tin Plate, No Post Cure                                 Acetone Double Rubs                                                                         15(4)   30(4)   100(1)                                                                               100(1)                                                                               100(1)                                Pencil Hardness                                                                             F       F       H     F     F                                     % Crosshatch 0       12      0     0     0                                     Adhesion                                                                       1/8" Mandrel Bend                                                                           Pass    Pass    Pass  Pass  Pass                                  Thickness, mils                                                                             0.70    0.70    0.70  0.75  0.70                                  ______________________________________                                    

    ______________________________________                                                             Electrical Resistance,                                                         500 v, ohm × 10.sup.-12                              System    Thickness,                                                                               Time After UV Cure                                         on PCB    mils      60 min.   1 day 7 days*                                    ______________________________________                                         13        1.50      2.75      6.0   6.5                                        14        1.75      0.21      0.64  1.2                                        15        1.25      9.5       18.0  12.0                                       16        1.50      7.0       18.0  11.0                                       17        1.00      1.2       25.0  40.0                                       ______________________________________                                          *Resistance value just before accelerated humidity testing.              

    ______________________________________                                                   Electrical Resistance After                                                    Soxhlet Exposure, ohm × 10.sup.-12                             System Hours in Immediate,                                                                               1 Hour 1 day,*                                       on PCB*                                                                               Soxhlet  100 Volts 500 Volts                                                                             500 Volts                                                                              Blisters                              ______________________________________                                         Standard                                                                              --       0.010**   --     2.5     None                                  13     6.0      0.022     4.6    40      None                                  14     6.0      3.4       11.0   21      None                                  15     6.0      3.6       6.5    35      None                                  16     6.0      0.013     2.2    >100    None                                  17     6.0      3.4       5.5    40      None                                  ______________________________________                                          *The resistance of the boards was checked several days (times varied from      11 to 4 days) after the first exposure to the soxhlet "environment". When      measured at 500 volts, all the PCB's had a resistance of >1 ×            10.sup.14 ohms.                                                                **Average value required. Individual specimens can have a value as low as      0.005 × 10.sup.12 ohms.                                            

EXAMPLES 18-23

Examples 18 through 23 delineated in Table VI were designed to contain large amounts of polyol.

Examples 24 and 25 were included as examples of polyol combinations. All properties were very good for these systems with one exception. Example 25 failed the accelerated humidity testing. This was unexpected and no explanation can be given for this failure.

                                      TABLE VI                                     __________________________________________________________________________     POLYMEG/EPOXIDE SYSTEMS                                                        UV CURE                                                                                EXAMPLES                                                               Ingredients, g                                                                         18  19  20  21  22  23  24  25                                         __________________________________________________________________________     Polymeg* 650                                                                           35.0                                                                               45.0                                                                               --  --  --  --  10.0                                                                               10.0                                       Polymeg* 1000                                                                          --  --  30.0                                                                               40.0                                                                               --  --   8.0                                                                                6.0                                       Polymeg* 2000                                                                          --  --  --  --  20.0                                                                               30.0                                                                               --   3.0                                       ERL-4221                                                                               53.7                                                                               45.1                                                                               58.0                                                                               49.5                                                                               66.6                                                                               58.0                                                                               68.4                                                                               67.5                                       VCHM     8.8                                                                                7.4                                                                                9.5                                                                                8.0                                                                               10.9                                                                                9.5                                                                               11.1                                                                               11.0                                       UVE-1014                                                                               ←2.0 →                                                     L-5410  ←0.50→                                                     Dye,** pph                                                                             ←0.02→                                                     Properties                                                                     Viscosity***, cp                                                                       137 160 197 241 265 395 127 141                                        __________________________________________________________________________      *Trademark for poly(tetramethylene oxide) polyols (Quaker Oats).               **Fluorescent dye, Calcafluor White RWP (American Cyanamid).                   ***At 25° C., UK LVB viscometer, L6 Spindle.                      

Coating/Cure System

It was necessary to melt the Polymeg 1000 and 2000 to effect a solution. The systems were coated onto Bonderite 37 Steel and Q-panel type DT tin-plate panels and onto fiberglass/epoxy printed circuit board (PCB) test panels. The steel panels were, coated with a No. 20 wire-wound rod and the PCB's by a dip coating technique using a 3.5 to 4-minute removal time. During cure, the relative humidity was 29% and the temperature was 74° F. Cure rate for the steel panels was 10 fpm under a focused beam, 300 w/i, Type A, Fusion Systems light source. PCB's that met Mill-I-46058C 1982, were cleaned, dried, and cured on each side at a rate of 50 fpm and then twice on each side at 10 fpm. About 10 minutes elapsed between the 50 fpm and 10 fpm UV-cure passes. As a final cure, the PCB's were UV cured on all four edges for 30 seconds at a distance of 2 inches from a stationary, medium-pressure, UV-light source (Hanovia 673A10, 105475).

Results Examples 18-25 on Steel and Tin Plate

All coatings were tack free, smooth and had high gloss when warm immediately after UV exposure.

Examples 18-25 on PCB's

All coatings were tack free after the 50 fpm exposure.

    __________________________________________________________________________     Properties 24 Hours                                                            after UV Exposure                                                                        18  19  20  21  22  23  24  25                                       __________________________________________________________________________               Examples on Bonderite 37, no Post Cure                               Acetone Dbl. Rubs                                                                        94(4)                                                                              15(4)                                                                              90(4)                                                                              33(4)                                                                              100(1)                                                                             40(4)                                                                              100(1)                                                                             100(1)                                   Pencil Hardness                                                                          H   H   H   H   H   H   4H  4H                                       % X-Hatch Adh.                                                                           100 100 100 100 100 100 60  40                                       Gardner Impact                                                                 Direct, in. lbs.                                                                         >320                                                                               >320                                                                               >320                                                                               >320                                                                               25  250 15  25                                       Reverse, in. lbs.                                                                        >320                                                                               >320                                                                               >320                                                                               >320                                                                               25  225 <5  <5                                       Thickness, mils                                                                          0.78                                                                               0.65                                                                               0.78                                                                               0.78                                                                               0.62                                                                               0.80                                                                               0.70                                                                               0.70                                               Examples on Tin Plate (Q Panes, Type DT)                             Acetone Dbl Rubs                                                                         33(4)                                                                              12(4)                                                                              39(4)                                                                              15(4)                                                                              100(1)                                                                             20(4)                                                                              100(1)                                                                             100(1)                                   Pencil Hardness                                                                          H   H   H   H   H   H   H   H                                        % X-Hatch Adh.                                                                           0   50  0   0   0   20  0   0                                        1/8 in. Mandrel Bend                                                                     Pass                                                                               Pass                                                                               Pass                                                                               Pass                                                                               Pass                                                                               Pass                                                                               Pass                                                                               Pass                                     Thickness, mils                                                                          0.72                                                                               0.45                                                                               0.65                                                                               0.68                                                                               0.70                                                                               0.75                                                                               0.65                                                                               0.62                                               Examples on Bonderite 37, 10 Min, 80° C. Post Cure            Acetone Dbl. Rubs                                                                        100(1)                                                                             30(4)                                                                              100(1)                                                                             60(4)                                                                              100(1)                                                                             100(1)                                                                             100(1)                                                                             100(1)                                   Pencil Hardness                                                                          2H  H   2H  H   3H  2H  4H  4H                                       % X-Hatch Adh.                                                                           100 100 100 100 100 100 100 100                                                Examples on Tin Plate, 10 Min, 80° C. Post Cure               Acetone Dbl. Rubs                                                                        50(4)                                                                              25(4)                                                                              48(4)                                                                              26(4)                                                                              100(1)                                                                             60(4)                                                                              100(1)                                                                             100(1)                                   Pencil Hardness                                                                          H   H   H   H   H   H   H   H                                        % X-Hatch Adh.                                                                           0   0   0   0   0   0   0   0                                                  Examples on Bonderite, 10 Min, at 80° C. and at                         170° C.                                                       Acetone Dbl. Rubs                                                                        --  100(1)                                                                             --  100(1)                                                                             --  --  --  --                                       Pencil Hardness                                                                          --  H   --  H   --  --  --  --                                       % X-Hatch Adh.                                                                           --  100 --  100 --  --  --  --                                                 Examples on Tin Plate, 10 min, at 80° C. and at                         170° C.                                                       Acetone Dbl. Rubs                                                                        100(1)                                                                             75(4)                                                                              100(1)                                                                             40(4)                                                                              --  100(1)                                                                             --  --                                       Pencil Hardness                                                                          H   H   H   H   --  H   --  --                                       % X-Hatch Adh.                                                                           50  100 100 100 --  100 --  --                                       __________________________________________________________________________

    ______________________________________                                         Insulation Resistance, 500 v, ohm × 10.sup.-12                           Example   Thickness,                                                                               Time After UV Exposure                                     on PCB    Mils      16 Hrs    2 Days                                                                               3 Days                                     ______________________________________                                         18        1.7       0.065     0.090 0.017                                       19*      1.7       0.005     0.006 0.002                                      20        1.7       0.396     0.550 0.024                                      21        2.0       0.040     0.065 0.006                                      22        2.0       6.50      8.00  5.50                                       23        2.2       0.33      0.42  0.90                                       24        1.5       14.0      17.0  14.0                                       25        1.5       12.0      20.0  14.0                                       ______________________________________                                          *This coating had a high frictional, rubbery feel.                       

    ______________________________________                                                   Insulation Resistance After                                                    Soxhlet Exposure, ohm × 10.sup.-12                             Example                                                                               Hours in Immediate, After 1.5                                                                               After 12                                   on PCB Soxhlet  100 v      Hr., 500 V                                                                              Hr. 500 V                                  ______________________________________                                         Standard                                                                              --       0.010      --       2.5                                        18     6.0      0.00009    0.0015   0.011                                      19     6.0      0.021      0.245    0.210                                      20     6.0      0.00025    0.0033   1.85                                       21     6.0      0.034      1.20     20.0                                       22     6.0      4.10       6.50     25.0                                       23     6.0      0.00050    0.028    0.99                                       24     6.0      4.00       11.0     40.0                                       25     6.0      0.0028     0.45     11.0                                       ______________________________________                                    

EXAMPLES 26 to 32

These Examples contain data for formulations based on tetramethylene oxide polyols and different epoxide compositions. They have a relatively high viscosity and they meet the military spec requirements. These systems do not pass the 1/8-inch Mandrel bend requirement.

                                      TABLE VII                                    __________________________________________________________________________     POLYMEG/EPOXIDE SYSTEMS                                                        UV CURE                                                                                 Example                                                               Ingredients, g                                                                          26  27  28  29  30  31  32                                            __________________________________________________________________________     Polymeg* 1000                                                                           12.0                                                                               12.0                                                                               12.0                                                                               16.0                                                                               16.0                                                                               25.0                                                                               15.0                                          Polymeg* 2000                                                                           --  --  --  --  --  --  10.0                                          ERL-4221 85.5                                                                               85.5                                                                               79.9                                                                               81.5                                                                               75.9                                                                               72.5                                                                               72.5                                          VCHM     --  --  5.6 --  5.6 --  --                                            UVE-1014 2.0 2.0 2.0 2.0 2.0 2.0 2.0                                           L-5410   0.50                                                                               0.50                                                                               0.50                                                                               0.50                                                                               0.50                                                                               0.50                                                                               0.50                                          Dye,** pph                                                                              0.02                                                                               0.02                                                                               0.02                                                                               0.02                                                                               0.02                                                                               0.02                                                                               0.02                                          Properties                                                                     Viscosity***, cp                                                                        297 277 189 306 200 281 371                                           __________________________________________________________________________      *Trademark for poly(tetramethylene oxide) polyols (Quaker Oats).               **Fluorescent dye, Calcaflour White RWP (American Cyanamid).                   ***Note: Viscosity data at 30° C., UK LV8 viscometer, L6 spindle. 

Coating/Cure System

Same procedure used. RH was 37% at 75° F. during cure.

Results System 26 to 32

All systems were tack free when warm immediately after UV exposure.

Properties

    __________________________________________________________________________     Properties 24 Hours                                                            After UV Exposure                                                                         26  27  28  29  30  31  32                                          __________________________________________________________________________                Examples on Bonderite 37, No Post Cure                              Double Acetone Rubs                                                                       100(1)                                                                             100(1)                                                                             100(1)                                                                             100(1)                                                                             100(1)                                                                             40(4)                                                                              40(4)                                       Pencil Hardness                                                                           H   H   H   H   H   --  --                                          % X-Hatch Adhesion                                                                        0   0   0   0   0   --  --                                          Gardner Impact                                                                 Direct, in. lbs.                                                                          25  50  25  25  25  --  --                                          Reverse, in. lbs.                                                                         <5  <5  <5  <5  <5  --  --                                                     Examples on Tin Plate (Type DT), No Post Cure                       Double Acetone Rubs                                                                       100(1)                                                                             100(1)                                                                             100(1)                                                                             100(1)                                                                             100(1)                                                                             30(4)                                                                              40(4)                                       Pencil Hardness                                                                           H   H   H   H   H   --  --                                          % X-Hatch Adhesion                                                                        0   0   0   0   0   --  --                                          Mandrel Bend, 1/8 in                                                                      Fail                                                                               Fail                                                                               Fail                                                                               Fail                                                                               Fail                                                                               --  --                                                     Examples on Bonderite, 30 Min, @120° C.                      Double Acetone Rubs                                                                       --  --  --  --  --  100(1)                                                                             100(1)                                      Pencil Hardness                                                                           --  --  --  --  --  H   H                                           % X-Hatch Adhesion                                                                        --  --  --  --  --  100 100                                         Gardner Impact,                                                                Direct, in. lbs.                                                                          --  --  --  --  --  250 250                                         Reverse, in. lbs.                                                                         --  --  --  --  --  150 150                                                    Examples on Tin Plate (Type DT) 30 min, at 120° C.           Double Acetone Rubs                                                                       --  --  --  --  --  100(1)                                                                             100(1)                                      Pencil Hardness                                                                           --  --  --  --  --  H   H                                           % X-Hatch Adhesion                                                                        --  --  --  --  --  5   5                                           Mandrel Bend, 1/8 inc.                                                                    --  --  --  --  --  Pass                                                                               Pass                                        __________________________________________________________________________

    ______________________________________                                                   Insulation Resistance,* ohms × 10.sup.-12,                               at 500 volts (Times are elapsed                                                time after UV exposure)                                                     Thick-                            Post Cure                             System ness                              30 Min                                on PCB Mils     1 Hr.  16 Hr.                                                                               1 Day 2 Days                                                                               @120° C.                       ______________________________________                                         26     1.5      --      7.5  --    5.9   --                                    27     2.0      20.0   --    12.0  --    --                                    28     2.0      --     11.0  --    8.0   --                                    29     2.0      --      5.0  --    3.5   --                                    30     2.0      --     15.0  --    12.0  --                                    31     3.0      2.0    --     0.72 --    --                                    31     2.8      --     --    --    --    50.0                                  32     2.0      3.2    --    1.5   --    --                                    32     2.5      --     --    --    --    40.0                                  ______________________________________                                          *Mil Spec standard 2.5 × 10.sup.12 ohms.                           

    ______________________________________                                                   Insulation Resistance After Soxhlet                                            Exposure, ohm × 10.sup.-12                                     Example                                                                               Hours in Immediate, After 1-2                                                                              After 1 Day,                                on PCB Soxhlet  100 V      Hr, 500 V                                                                              500 V                                       ______________________________________                                         Standard                                                                              --       0.010      --      2.5                                         26     6        0.0001     0.0042  12.0                                        27     6        0.42       1.2     15.0                                        28     6        0.16       0.65    4.1                                         29     6        0.19       0.70    25.0                                        30     6        0.0002     0.0011  6.4                                         31     6        0.0002     --      0.090                                       31     6        0.0065     --      18.0                                        32     6        0.0003     0.025   0.23                                        32     6        0.0034     6.50    14.0                                        ______________________________________                                          *Post cured 30 Min. @120° C.                                      

EXAMPLES 33-39

These examples contain data for conformal coating formulations based on tetramethylene oxide polyols from a different source and on a variety of epoxides. Each formulation contained 2.0 grams of UVE-1014 photoinitiator, 0.5 gram of L-7604 surfactant, and 0.02 grams of Calcafluor white RWP fluorescent dye. All examples were mixed as previously described.

                                      TABLE VIII                                   __________________________________________________________________________     POLY(TETRAMETHYLENE OXIDE)                                                     POLYOL/EPOXIDE SYSTEMS                                                         UV CURE                                                                                   Example No.                                                         Ingredients, g                                                                            33  34  35  36  37  38  39                                          __________________________________________________________________________     TERATHANE 1000                                                                            12.0                                                                               --  --  --  14.0                                                                               14.2                                                                               14.0                                        TERATHANE 2900                                                                            --  5.0 10.0                                                                               15.0                                                                               --  --  --                                          ERL-4221   73.5                                                                               79.5                                                                               75.2                                                                               70.5                                                                               64.9                                                                               64.9                                                                               64.9                                        ERL-4299   --  --  --  --  8.0 --  --                                          ERL-4206   --  --  --  --  --  8.0 --                                          ERL-4234   --  --  --  --  --  --  8.0                                         VCHM       12.0                                                                               13.0                                                                               12.3                                                                               11.5                                                                               10.6                                                                               10.6                                                                               10.6                                        Viscosity, cp,                                                                            132 145 212 312 156 105 173                                         at 25° C.                                                               __________________________________________________________________________

Coating/Cure System

Same procedure as used in other examples was employed.

Results

All systems were tack free when warm immediately after UV exposure. All coatings except that from Example 39 passed the 1/8-inch mandrel bend test on tin plated steel (Q Panel, Type D1).

All coatings had a Gardner impact resistance test value of <5 in. lbs. direct and 25 in. lbs. reverse.

    __________________________________________________________________________     Properties 24 hrs.                                                             After UV Exposure                                                                         Example                                                             On Bonderite Steel                                                                        33  34  35  36  37  38  39                                          __________________________________________________________________________     Acetone Double Rubs                                                                       100(1)                                                                             100(1)                                                                             100(1)                                                                             100(1)                                                                             100(1)                                                                             100(1)                                                                             100(1)                                      Pencil Hardness                                                                           H   2H  2H  2H  2H  3H  3H                                          Insulation Resis-                                                                         2.5 4.4 3.4 2.3 1.3 1.3 1.3                                         tance, ohms × 10.sup.-12                                                 at 500 volts on PCB                                                            15 min. after UV                                                               exposure                                                                       __________________________________________________________________________

EXAMPLES 40 and 41

These examples describe the use of an inert solvent in the formulation. After the formulations were coated onto the substrates, no drying step was used. That is, they were coated and cured in the same manner as was described in the previous examples. Both coatings were tack free when warm immediately after UV exposure. Coatings from both examples passed the 1/8-inch mandrel bend test on tin-plated steel.

    ______________________________________                                                           EXAMPLES                                                     Ingredients, g      40      41                                                 ______________________________________                                         Formulation of Ex. 33                                                                              8.0     --                                                 Formulation of Ex. 36                                                                              --      8.0                                                1,1,1-trichloroethane                                                                              2.0     --                                                 UCAR PM Acetate     --      2.0                                                Properties                                                                     Double Acetone Rubs 100(1)  68(4)                                              Pencil Hardness     H       2B                                                 Cross Hatch Adhesion                                                                               100%    100%                                               Gardner Impact, in. lbs.                                                       Direct              25      <5                                                 Reverse             >320    >320                                               ______________________________________                                    

Although the invention was described in its preferred forms with a certain degree of particularity, it will be appreciated by those skilled in the art that variations may be made without departing from the spirit and scope of the invention. 

I claim:
 1. A printed circuit board having as a conformal coating thereon, the cured product of a photocurable composition consisting essentially of a cycloaliphatic polyepoxide, a polytetramethylene oxide polyol and a photoinitiator, said cured product being moisture resistant and having an electrical insulation resistance of greater than about 2.5×10¹² ohms.
 2. A printed circuit board having as a conformal coating thereon, the cured product of a photocurable composition consisting essentially of a cycloaliphatic diepoxide in an amount of about 60 to about 89 parts by weight, a polytetramethylene oxide polyol in an amount of about 10 to about 35 parts by weight and an onium photoinitiator in an amount of about 1 to about 5 parts by weight, said cured product being moisture resistant and having an electrical insulation resistance of greater than about 2.5×10¹² ohms.
 3. A printed circuit board as defined in claim 2 wherein the diepoxide of said composition is 3,4-epoxycyclohexylmethyl-3,4-epoxycyclohexane carboxylate.
 4. A printed circuit board as defined in claim 2 wherein the diepoxide of said composition is bis(3,4-epoxycyclohexylmethyl) adipate.
 5. A printed circuit board as defined in claim 2 wherein the diepoxide of said composition is 2-(3,4-epoxycyclohexyl-5,5-spiro-3,4-epoxy)cyclohexane-meta-dioxane.
 6. A printed circuit board as defined in claim 2, wherein the diepoxide of said composition is a mixture of 3,4-epoxycyclohexylmethyl-3,4-epoxycyclohexane carboxylate, bis(3,4-epoxycyclohexylmethyl) adipate and 2-(3,4-epoxycyclohexyl-5,5-spiro-3,4-epoxy)cyclohexane-meta-dioxane.
 7. A printed circuit board as defined in claim 2 wherein the polytetramethylene oxide polyol of said composition has a molecular weight of 600 to 3,000.
 8. A printed circuit board as defined in claim 2 wherein said composition contains a reactive, monoepoxide diluent.
 9. A printed circuit board as defined in claim 2 wherein the photoinitiator of said composition is a hexafluoroantimonate salt.
 10. A printed circuit board as defined in claim 2 wherein said composition contains a fluorescent dye.
 11. A printed circuit board as defined in claim 8 wherein the said diluent is vinyl cyclohexene monoepoxide.
 12. A printed circuit board as defined in claim 9 wherein the said photoinitiator is an aryl-sulfonium hexafluoroantimonate salt.
 13. A printed circuit board as defined in claim 2 wherein the said composition contains a silicone-ethylene oxide copolymer surfactant having the formula: ##STR10##
 14. A printed circuit board having as a conformal coating thereon, the cured product of a composition consisting essentially of 3,4-epoxycyclohexylmethyl-3,4-epoxycyclohexane carboxylate, a polytetramethylene oxide polyol having a molecular weight of about 1,000, an onium salt photoinitiator, and a silicone-ethylene oxide copolymer surfactant having the formula: ##STR11## said cured product being moisture resistant and having an electrical insulation resistance of greater than about 2.5×10¹² ohms. 